10 moles of A(2), 15 moles of B(2) and 5...

10 moles of `A_(2), 15` moles of `B_(2)` and 5 moles of AB are placed in a 2 litre vessel and allowed the come to equilibrium. The final concentration of AB is 10.5 M, `A_(2)(g)+B_(2)(g)hArr 2AB(g)`
Determine the value of equilibrium constant `(K_(C))` for the reaction.

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Determinre the value of equilibrium constant (K_(C)) for the reaction A_(2)(g)+B_(2)(g)hArr2AB(g) if 10 moles of A_(2) ,15 moles of B_(2) and 5 moles of AB are placed in a 2 litre vessel and allowed to come to equilibrium . The final concentration of AB is 7.5 M:

10 moles of `A_(2), 15` moles of `B_(2)` and 5 moles of AB are placed in a 2 litre vessel and allowed the come to equilibrium. The final concentration of AB is 10.5 M, `A_(2)(g)+B_(2)(g)hArr 2AB(g)` Determine the value of equilibrium constant `(K_(C))` for the reaction.

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10 moles of `A_(2), 15` moles of `B_(2)` and 5 moles of AB are placed in a 2 litre vessel and allowed the come to equilibrium. The final concentration of AB is 10.5 M, `A_(2)(g)+B_(2)(g)hArr 2AB(g)`
Determine the value of equilibrium constant `(K_(C))` for the reaction.